#include #include #include #include #include #include #include #if __APPLE__ #include #endif #include "machines.hh" #include "shared.hh" #include "pathlocks.hh" #include "globals.hh" #include "serialise.hh" #include "build-result.hh" #include "store-api.hh" #include "derivations.hh" #include "local-store.hh" #include "legacy.hh" #include "experimental-features.hh" using namespace nix; using std::cin; static void handleAlarm(int sig) { } std::string escapeUri(std::string uri) { std::replace(uri.begin(), uri.end(), '/', '_'); return uri; } static std::string currentLoad; static AutoCloseFD openSlotLock(const Machine & m, uint64_t slot) { return openLockFile(fmt("%s/%s-%d", currentLoad, escapeUri(m.storeUri), slot), true); } static bool allSupportedLocally(Store & store, const std::set& requiredFeatures) { for (auto & feature : requiredFeatures) if (!store.systemFeatures.get().count(feature)) return false; return true; } static int main_build_remote(int argc, char * * argv) { { logger = makeJSONLogger(*logger); /* Ensure we don't get any SSH passphrase or host key popups. */ unsetenv("DISPLAY"); unsetenv("SSH_ASKPASS"); /* If we ever use the common args framework, make sure to remove initPlugins below and initialize settings first. */ if (argc != 2) throw UsageError("called without required arguments"); verbosity = (Verbosity) std::stoll(argv[1]); FdSource source(STDIN_FILENO); /* Read the parent's settings. */ while (readInt(source)) { auto name = readString(source); auto value = readString(source); settings.set(name, value); } auto maxBuildJobs = settings.maxBuildJobs; settings.maxBuildJobs.set("1"); // hack to make tests with local?root= work initPlugins(); auto store = openStore(); /* It would be more appropriate to use $XDG_RUNTIME_DIR, since that gets cleared on reboot, but it wouldn't work on macOS. */ auto currentLoadName = "/current-load"; if (auto localStore = store.dynamic_pointer_cast()) currentLoad = std::string { localStore->stateDir } + currentLoadName; else currentLoad = settings.nixStateDir + currentLoadName; std::shared_ptr sshStore; AutoCloseFD bestSlotLock; auto machines = getMachines(); debug("got %d remote builders", machines.size()); if (machines.empty()) { std::cerr << "# decline-permanently\n"; return 0; } std::optional drvPath; std::string storeUri; while (true) { try { auto s = readString(source); if (s != "try") return 0; } catch (EndOfFile &) { return 0; } auto amWilling = readInt(source); auto neededSystem = readString(source); drvPath = store->parseStorePath(readString(source)); auto requiredFeatures = readStrings>(source); /* It would be possible to build locally after some builds clear out, so don't show the warning now: */ bool couldBuildLocally = maxBuildJobs > 0 && ( neededSystem == settings.thisSystem || settings.extraPlatforms.get().count(neededSystem) > 0) && allSupportedLocally(*store, requiredFeatures); /* It's possible to build this locally right now: */ bool canBuildLocally = amWilling && couldBuildLocally; /* Error ignored here, will be caught later */ mkdir(currentLoad.c_str(), 0777); while (true) { bestSlotLock.reset(); AutoCloseFD lock = openLockFile(currentLoad + "/main-lock", true); lockFile(lock.get(), ltWrite, true); bool rightType = false; Machine * bestMachine = nullptr; uint64_t bestLoad = 0; for (auto & m : machines) { debug("considering building on remote machine '%s'", m.storeUri); if (m.enabled && m.systemSupported(neededSystem) && m.allSupported(requiredFeatures) && m.mandatoryMet(requiredFeatures)) { rightType = true; AutoCloseFD free; uint64_t load = 0; for (uint64_t slot = 0; slot < m.maxJobs; ++slot) { auto slotLock = openSlotLock(m, slot); if (lockFile(slotLock.get(), ltWrite, false)) { if (!free) { free = std::move(slotLock); } } else { ++load; } } if (!free) { continue; } bool best = false; if (!bestSlotLock) { best = true; } else if (load / m.speedFactor < bestLoad / bestMachine->speedFactor) { best = true; } else if (load / m.speedFactor == bestLoad / bestMachine->speedFactor) { if (m.speedFactor > bestMachine->speedFactor) { best = true; } else if (m.speedFactor == bestMachine->speedFactor) { if (load < bestLoad) { best = true; } } } if (best) { bestLoad = load; bestSlotLock = std::move(free); bestMachine = &m; } } } if (!bestSlotLock) { if (rightType && !canBuildLocally) std::cerr << "# postpone\n"; else { // build the hint template. std::string errorText = "Failed to find a machine for remote build!\n" "derivation: %s\nrequired (system, features): (%s, [%s])"; errorText += "\n%s available machines:"; errorText += "\n(systems, maxjobs, supportedFeatures, mandatoryFeatures)"; for (unsigned int i = 0; i < machines.size(); ++i) errorText += "\n([%s], %s, [%s], [%s])"; // add the template values. std::string drvstr; if (drvPath.has_value()) drvstr = drvPath->to_string(); else drvstr = ""; auto error = HintFmt::fromFormatString(errorText); error % drvstr % neededSystem % concatStringsSep(", ", requiredFeatures) % machines.size(); for (auto & m : machines) error % concatStringsSep(", ", m.systemTypes) % m.maxJobs % concatStringsSep(", ", m.supportedFeatures) % concatStringsSep(", ", m.mandatoryFeatures); printMsg(couldBuildLocally ? lvlChatty : lvlWarn, error.str()); std::cerr << "# decline\n"; } break; } #if __APPLE__ futimes(bestSlotLock.get(), NULL); #else futimens(bestSlotLock.get(), NULL); #endif lock.reset(); try { Activity act(*logger, lvlTalkative, actUnknown, fmt("connecting to '%s'", bestMachine->storeUri)); sshStore = bestMachine->openStore(); sshStore->connect(); storeUri = bestMachine->storeUri; } catch (std::exception & e) { auto msg = chomp(drainFD(5, false)); printError("cannot build on '%s': %s%s", bestMachine->storeUri, e.what(), msg.empty() ? "" : ": " + msg); bestMachine->enabled = false; continue; } goto connected; } } connected: close(5); assert(sshStore); std::cerr << "# accept\n" << storeUri << "\n"; auto inputs = readStrings(source); auto wantedOutputs = readStrings(source); AutoCloseFD uploadLock = openLockFile(currentLoad + "/" + escapeUri(storeUri) + ".upload-lock", true); { Activity act(*logger, lvlTalkative, actUnknown, fmt("waiting for the upload lock to '%s'", storeUri)); auto old = signal(SIGALRM, handleAlarm); alarm(15 * 60); if (!lockFile(uploadLock.get(), ltWrite, true)) printError("somebody is hogging the upload lock for '%s', continuing..."); alarm(0); signal(SIGALRM, old); } auto substitute = settings.buildersUseSubstitutes ? Substitute : NoSubstitute; { Activity act(*logger, lvlTalkative, actUnknown, fmt("copying dependencies to '%s'", storeUri)); copyPaths(*store, *sshStore, store->parseStorePathSet(inputs), NoRepair, NoCheckSigs, substitute); } uploadLock.reset(); auto drv = store->readDerivation(*drvPath); std::optional optResult; // If we don't know whether we are trusted (e.g. `ssh://` // stores), we assume we are. This is necessary for backwards // compat. bool trustedOrLegacy = ({ std::optional trusted = sshStore->isTrustedClient(); !trusted || *trusted; }); // See the very large comment in `case WorkerProto::Op::BuildDerivation:` in // `src/libstore/daemon.cc` that explains the trust model here. // // This condition mirrors that: that code enforces the "rules" outlined there; // we do the best we can given those "rules". if (trustedOrLegacy || drv.type().isCA()) { // Hijack the inputs paths of the derivation to include all // the paths that come from the `inputDrvs` set. We don’t do // that for the derivations whose `inputDrvs` is empty // because: // // 1. It’s not needed // // 2. Changing the `inputSrcs` set changes the associated // output ids, which break CA derivations if (!drv.inputDrvs.map.empty()) drv.inputSrcs = store->parseStorePathSet(inputs); optResult = sshStore->buildDerivation(*drvPath, (const BasicDerivation &) drv); auto & result = *optResult; if (!result.success()) throw Error("build of '%s' on '%s' failed: %s", store->printStorePath(*drvPath), storeUri, result.errorMsg); } else { copyClosure(*store, *sshStore, StorePathSet {*drvPath}, NoRepair, NoCheckSigs, substitute); auto res = sshStore->buildPathsWithResults({ DerivedPath::Built { .drvPath = makeConstantStorePathRef(*drvPath), .outputs = OutputsSpec::All {}, } }); // One path to build should produce exactly one build result assert(res.size() == 1); optResult = std::move(res[0]); } auto outputHashes = staticOutputHashes(*store, drv); std::set missingRealisations; StorePathSet missingPaths; if (experimentalFeatureSettings.isEnabled(Xp::CaDerivations) && !drv.type().hasKnownOutputPaths()) { for (auto & outputName : wantedOutputs) { auto thisOutputHash = outputHashes.at(outputName); auto thisOutputId = DrvOutput{ thisOutputHash, outputName }; if (!store->queryRealisation(thisOutputId)) { debug("missing output %s", outputName); assert(optResult); auto & result = *optResult; auto i = result.builtOutputs.find(outputName); assert(i != result.builtOutputs.end()); auto & newRealisation = i->second; missingRealisations.insert(newRealisation); missingPaths.insert(newRealisation.outPath); } } } else { auto outputPaths = drv.outputsAndOptPaths(*store); for (auto & [outputName, hopefullyOutputPath] : outputPaths) { assert(hopefullyOutputPath.second); if (!store->isValidPath(*hopefullyOutputPath.second)) missingPaths.insert(*hopefullyOutputPath.second); } } if (!missingPaths.empty()) { Activity act(*logger, lvlTalkative, actUnknown, fmt("copying outputs from '%s'", storeUri)); if (auto localStore = store.dynamic_pointer_cast()) for (auto & path : missingPaths) localStore->locksHeld.insert(store->printStorePath(path)); /* FIXME: ugly */ copyPaths(*sshStore, *store, missingPaths, NoRepair, NoCheckSigs, NoSubstitute); } // XXX: Should be done as part of `copyPaths` for (auto & realisation : missingRealisations) { // Should hold, because if the feature isn't enabled the set // of missing realisations should be empty experimentalFeatureSettings.require(Xp::CaDerivations); store->registerDrvOutput(realisation); } return 0; } } static RegisterLegacyCommand r_build_remote("build-remote", main_build_remote);